NO167209B - CATALYST AND POLYMERIZATION OF ALKENES USING THE CATALYST. - Google Patents

Abstract

A very active catalyst suitable for the polymerization of olefins and its use are indicated, the catalyst being prepared by. (1) grinding together an aluminum halide, at least one electron donor; a Group IVB-VTB transition metal compound; and a support base selected from the group consisting of Group IIA and -IIIA salts and the salts of the polyvalent metals of the first transition series with the exception of copper, for the preparation of a ground solid; (2) extracting said ground solid with an organic liquid; and (3) separating the solid from the liquid under such conditions that at least 5% by weight of the aluminum in the ground solid is removed.

Description

Connecting device for prefabricated building elements.

The invention concerns a connection device for prefabricated building elements.

In the past, prefabricated building elements have been permanently blinded to each other in the place where they are to be used, using mbrtel or similar binders.

There are also known devices where the connection of the building elements takes place with the help of connecting elements anchored in them, which are arranged in pairs against each other between mutually abutting surfaces of the building elements, and which have a hole at the end where they protrude from the elements, and at help of a through these holes poked

eccentric rod. From German interpretation document no. 1,200,506 is also there.

known a device where elements with such connecting means are clamped together by a wedge action on the inner faces of the holes, whereby a rod with a wedge surface at one end is inserted through the holes in all pairs of connecting means until the wedge surface reaches the bottom pair. Separate wedges, which have liners on the rod, can then be fed down over this for interaction with each pair of connecting members. Each of the compound openings formed by the paired holes in the connecting members is larger than the openings below, and the same is the case for the wedges.

However, these connections have the disadvantage that they cannot be retightened after they have been loosened as a result of fatigue phenomena in the material or vibrations.

The purpose of the invention is to provide a connection device for building elements, where the joining of the building elements can be carried out in a short time without impact stress, while at the same time there are possibilities for post-tightening a connection that has become loose.

The connection device according to the invention is of the type stated in the introduction to claim 1, and the new and primarily characteristic of the device is stated in the characteristic in claim 1.

In the following, the invention is described in more detail with reference to the drawing, which schematically shows an exemplary embodiment. Fig. 1 shows in longitudinal section along the line I - I in fig. 2 two building elements that are not completely joined together, with connecting elements and a tensioning device. Fig. 2 is a cross-section through the building elements with the connecting elements. Fig. 3 shows in longitudinal section along the line III-III in fig. 4 two composite building elements with connecting elements and a tensioning device. Fig. 4 is a cross-section through the building elements and the connecting elements. Fig. 1 and 2 show parts of two building elements 1 and 2 which are to be joined together, and which stand at a distance A from each other. Connecting elements 3 are firmly anchored in the building elements 1 and 2. The connecting elements 3 are provided at their free ends with openings or holes 4. The axes through all connecting elements 3 arranged on a building element lie as far as possible in line. The holes in the connecting members 3 in the building element 1 and the holes in the connecting members i

the building element 2 partly overlaps each other, so that for each pair of connecting members a passage opening 5 is obtained in the form of two composite circular sections. In this opening 5 there is arranged a rod 6 with wedge-shaped projections 7 (fig. 3) at distances corresponding to the connecting members arranged in pairs 3" The rod protrudes through all the holes in the connecting members and its ends lie outside the outermost connecting members.

The distance by which the walls of the holes 4 are offset in relation to each other, and which corresponds to the distance between the hole axis for all the connecting elements that are attached to the building element 1, and the hole axis for all the connecting elements that are attached to the building element 2, is denoted by b, and this distance is greater than the distance A.

When the rod is rotated 90° about its longitudinal axis and with the help of a pulling device, which consists of a threaded bolt 8 attached to the rod 6, a screw nut 9, a pressure distribution disc 10 and a support member 11, is pulled upwards in the direction of the arrow 12, the condition which is shown in fig. 3 and 4" At this quarter turn and stretched upwards, the common axis through the holes in all the connecting elements 3 in the building element 1 will approach the common axis through the holes in the connecting elements 3<;> in the building element 2. At the same time, the two building elements are supported against each other via the form parts 13 and 14 on the building element 1. These projecting parts simultaneously cover the connection device, so that this is not visible from the main sides of the building elements.

The dimensions of the rod 6 and the wedge-shaped abutments 7 are chosen so that the rod with its abutments in the one in fig. The position shown in 2 can be inserted through the openings limited by two circular arcs 5. The rotation of the rod 90<0> is carried out when the wedge-shaped projections are located just below the associated connecting means. When the rod is pulled up by means of the pulling device, the inner surfaces of the holes 4 facing the rod will on the one hand rest against the rod itself and on the other hand against an inclined surface of the projections and thus be pressed away from each other by a wedge effect, which means that building elements 1 and 2 are drawn towards each other. The pulling force becomes greater the stronger the screw nut 9 is tightened.

Preferably, the distances between the wedge-like projections 7 are adjustable to enable adaptation to inaccuracies in the distances between the connecting members. This adjustability can be achieved by the fact that the length of the rod between two projections can be regulated, or by the projections being adjustably attached to the rod.

If the connection as a result of fatigue phenomena in the parts

which is permanently under tension or pressure, should loosen over time,

is it possible to tighten the screw nut further, whereby the connection between the building elements becomes firm again.

Instead of a pulling device, there can be on the opposite end of

the rod is provided with pressure means. It is only important that the rod is moved in the direction of arrow 12.

If the building elements consist of material whose dimensions

changes strongly under the influence of external influences such as tempera-

travel, humidity, etc., connecting means are preferably used which allow the distance of the hole axes from the building element to be changed.

The form parts 13 and 14 can be designed in the building elements on

suitable way or consist of separate parts. The joint between the two together

set building elements can be flat or have an arbitrarily suitable shape,

e.g. consist of two surfaces that form an angle with each other. In this way, a suitable lining of the two building elements in the desired position is achieved.

The connecting means can be connected to each other, i.e.

be consistent. Several such connected connection bodies can also be connected to each other in the interior of the building element, so

such connection devices can also be used to reinforce the building elements.

Claims (5)

1. Device for connecting prefabricated building elements (1, 2), with connecting elements (3) anchored in them, which are arranged in pairs against each other between abutting surfaces on building the elements, and which at the non-anchored end has a hole (4)1 and with a clamping device (6-11) which comprises a rod (6) which can be inserted through the openings formed by the paired holes (4) {5) and serves to pull the connecting elements towards each other and hold the building elements together by wedge action, characterized in that on the rod (6) at the same distance as the paired connecting elements (3) which are anchored in the butting building elements (1, 2), arranged a corresponding number of wedge-like projections (7) which all face in the same direction, that at one end of the rod (6) there are arranged organs (8-11) to displace this in the direction of the taper for the projections (7), and that the largest cross-sectional dimension of the rod (6) and the projections (7) is smaller than the largest cross-sectional dimension of the openings (5). 2. Device as stated in claim 1, characterized in that the means (8-11) for displacing the rod (6) consist of a pulling device (8-11) which is arranged at the end of the rod (6) as the narrow end of the projections (7) point towards, and can rest against, at least one connecting member (3). 3. Device as stated in claim 1, characterized in that the means for displacing the rod consist of a pressure device which is arranged at the opposite end of the rod to that towards which the narrow end of the projections points, and can act on at least one connection organ . 4. Device as stated in one of the preceding claims, characterized in that all the anchored in a building element connecting means for reinforcing the building element are mutually connected at the anchored end. 5. Device as specified in one of the preceding claims, characterized in that the distance between the wedge-like projections on the rod can be changed.